The Port of Kiel commissioned Siemens Smart Infrastructure to implement a cloud-based power monitoring solution for its shore power system. The shore power system, also from Siemens, will cover the electricity demand of all ships at the Ostseekai and Schwedenkai with green power while they are berthed at the Port of Kiel. This saves more than 8,000 tons of CO2 per year. The new power monitoring solution makes it possible to measure the energy consumption in the shore power operations building and at the Ostseekai and Schwedenkai connecting points, and store the data in MindSphere, the cloud-based IoT system from Siemens.

The operators have access to all relevant electrical values at any time and from anywhere, allowing them to determine consumption, identify faults, avoid downtimes, and plan maintenance routines better. “With our shore power system, we are playing a pioneering role and making an active contribution to climate protection,” said Dr. Dirk Claus, managing director at the Port of Kiel GmbH & Co. KG. “By systematically recording the power data and storing it in the cloud, the system operator can now determine the efficiency of the systems at any time, i.e. how much energy is actually being drawn. This allows to quickly respond to any anomalies if necessary.”

All data is captured using 7KM PAC series measuring devices, bundled, and transferred to MindSphere via the Powercenter 3000 IoT data platform, and visualized either via the integrated web server or the Sentron “powermind” app. The app can be used intuitively and requires no specific IT knowledge.

“Accurate knowledge of energy flows is crucial in order to ensure that operations run smoothly from a technical point of view and are ecologically as well as economically sustainable – whether in industry or infrastructure,” said Andreas Matthé, CEO of Electrical Products at Siemens Smart Infrastructure. “Our solution provides the Port of Kiel with an uncomplicated digital energy data management and makes the operation of its shore power system even more efficient.”